The emphasis of this lesson is deepening students' understanding of how and why we measure precipitation across the globe. Students will look at NASA Tropical Rainfall Measuring Mission (TRMM) data gathered during hurricanes and how this data can...(View More) prove essential in helping scientists forecast the amount of precipitation. Students will also learn how the Global Precipitation Measurement (GPM) Mission is enabling scientists to collect new information on hurricanes. The lesson uses the 5E instructional sequence.(View Less)

This activity was developed to get students thinking about the many ways that people use freshwater and how we can conserve this precious and fundamental natural resource. Students will watch a short documentary describing issues related to clean...(View More) water availability, analyze water-use data and start to think about how they consume and can conserve water. This background knowledge will lead to students collecting data about their own water use and finding areas in their lives to conserve water. This activity uses the 5E instructional model and is part of the "Survivor Earth" series of one-hour lessons.(View Less)

Learners will relate the concept of density to the density of dust in space. They will use mission data from the Student Dust Counter (SDC) data viewer to determine the density of dust grains in a volume of space in order to answer questions...(View More) concerning the distribution of dust in the solar system. They will discover that space is much more sparsely populated with dust than they may have thought. Students discuss their findings with the class. Note: Updated links to the Student Dust Counter Data Viewer and website are provided under Related & Supplemental Resources (right).(View Less)

In this lesson, students construct a rain gauge, collect and graph precipitation data, specifically the amount of rainfall at a locality, then compare their findings with other students' data.The resource includes teaching notes, a vocabulary list...(View More) linked to a glossary, and a student record sheet. This activity is related to the NASA CERES Students Cloud Observations Online (S'COOL) project.(View Less)

This is an activity about comparing images of the Sun in different wavelengths of light. Learners will examine solar images taken by the SOHO spacecraft to look for differences in the features that are visible in the various wavelengths of light....(View More) This activity requires access to the internet to view or print images of the Sun. This is Activity 7 of the Sun As a Star afterschool curriculum.(View Less)

In this activity, student teams design and conduct a scientific investigation in which they explore the conditions necessary for life. They conduct observations of environmental conditions both indoor and outdoor, and determine the range of...(View More) variation they see. They compare these data with published temperature data for Earth, Mars, Pluto and Venus. The activity supports inquiry into the real world challenge of searching for life in extreme environments. The resource includes several student data sheets, data table and images, and a teacher's guide. Materials needed for this activity include weather instruments (e.g., thermometers, barometers, anemometers). This is Activity A of two activities in the first module, titled "Temperature variations and habitability," of the resource, "Earth Climate Course: What Determines a Planet's Climate?" The course aims to help students to develop an understanding of our environment as a system of human and natural processes that result in changes that occur over various space and time scales.(View Less)

The impacts of natural disasters are described in imaginary pen pal letters from peers who reside in the pathways of four authentic natural disasters: a volcanic lava flow in Hawaii, a volcanic ash cloud in Russia, a hurricane in the Gulf of Mexico...(View More) and flooding in the Midwestern U.S. Students must answer questions posed in the letters (included in the lesson), locate the impacted areas on a map, examine images of the disaster, research the Earth science processes involved and write back to the pen pal. The URL opens to the investigation directory, with links to teacher and student materials, lesson extensions, resources, teaching tips, and assessment strategies. This is Investigation 4 of four found in the Grades K-4 Module 4 of Mission Geography. The Mission Geography curriculum integrates data and images from NASA missions with the National Geography Standards. Each of the four investigations in Module 4, while related, can be done independently(View Less)

In this activity, learners classify selected objects from the Hubble Deep Field based on their color and shape. They then compare their classification with a chart made by astronomers. This is activity two of four in the Hubble Deep Field Lesson...(View More) Package which includes color lithographs, student worksheets, background information, a glossary, as well as national science education standards. Request a paper copy of the HDF package through the "contact us" page of Amazing Space - be sure to include your mailing address.(View Less)

In this activity, the problems and difficulties of determining the distances between Earth and objects in space is addressed. Learners attempt to arrange five objects from the Hubble Deep Field according to their distances from Earth. After making...(View More) their determination, based on visual observations alone, learners compare their answers with those of astronomers and try to explain why they differ. This is activity three of four in the Hubble Deep Field Lesson Package which includes color lithographs, student worksheets, background information, a glossary, as well as national science education standards. Request a paper copy of the HDF package through the "contact us" page of Amazing Space - be sure to include your mailing address.(View Less)

Students will collect samples of particles in the air on simple slides they make themselves. They will classify, count and chart their findings, draw conclusions, make predictions, and compare their findings to other available data. Supplies needed...(View More) for the investigation include microscope slides, petroleum jelly, magnifying glass, microscope, Eosin, and Methyln Blue or iodine. The activity is part of the Ground Truth Studies Teacher Handbook, which provides more than 20 activities to build student understanding of global change and remote sensing, and includes background chapters for teachers, glossary, and appendices.(View Less)